RU2530562C2 - Disposable electrode patch - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medicine. What is presented is a disposable electrode patch for medical application, comprising a flexible elongated substrate with the first and second surfaces, the first adhesive material applied on the first adhesive section at the first end of the first surface, and the second adhesive material applied on the second adhesive section at the second end of the first surface. Between the first and second adhesive sections on the first surface of the substrate, there are electrodes. When in use, the patch is wrapped about a specified part of a body so that the electrodes on the first surface contact the skin of this part of the body, while the first and second adhesive section of the first surface force against each other, thereby forming a stable structure enclosing the part of the body.

EFFECT: what is presented is the disposable electrode patch for medical application.

9 cl, 3 dwg

Description

State of the art

The invention relates to a disposable electrode pad intended for medical use and, specifically, for fixation on the skin of a patient.

For many medical applications, for example, to measure electrical activity in the brain (EEG), in the heart (ECG) or in the muscles (EMG), special electrodes are needed. In particular, they can be used to measure electric current, potential / voltage, conductivity and skin resistance. Medical electrodes of a certain type can also be used to supply electrical energy to the patient’s body, for example, complete with defibrillators, during electroshock therapy, as well as in other therapeutic methods.

Medical electrodes are also used in electrophysiology and neurology. A special class of equipment and methods provides measurement of skin conductivity in order to assess the patient’s autonomic nervous system (in particular, under anesthesia), detecting during anesthesia, for example, pain and the moment of awakening.

WO 03/94726 describes an example of a device and method for monitoring the autonomic nervous system of a patient under anesthesia, the skin conductivity being measured using electrodes mounted on the patient’s skin. Based on these measurements, signals are generated that indicate the patient has pain / discomfort, as well as the patient’s awakening.

Medical electrode pads are often fixed to the skin with an adhesive agent. However, it is well known that the use of such a tool directly on the patient's skin can cause irritation. This is especially important in situations involving newborns or premature babies, as their skin is very sensitive to adhesives. When newborn babies are placed in an incubator (couvez), they find themselves in particularly humid conditions. In such a damp environment, it is especially difficult to fix the adhesive electrodes on the baby’s skin.

Disclosure of invention

The problem to which the invention is directed, is to offer an improved electrode pad, which can provide advantages when used in situations related to infants or other people / patients with sensitive skin, and, in particular, if such use occurs during wet conditions.

The invention is characterized in the attached claims.

Brief Description of the Drawings

Next, embodiments, aspects and principles of the invention will be described in more detail with reference to the accompanying drawings, where

figure 1 schematically, in a perspective image shows the electrode pad shown before it is attached to the body part of the patient;

figure 2 schematically, in cross section presents an electrode pad attached to a part of the patient's body;

figure 3 schematically shows, in a top view, another version of the electrode pad shown before it is attached to the patient’s body part.

The implementation of the invention

Figure 1 in a perspective image, schematically shows a disposable electrode pad according to the invention before attaching to a part of the patient's body.

The patch 1 contains a first conductive electrode 2, a second conductive electrode 3 and a third conductive electrode 4, all of these electrodes are placed on a flexible elongated substrate-insulator 5. The substrate has a first surface and a second surface opposite to it, which is not visible in Fig. 1.

The substrate 5 is given an elongated shape, essentially in the form of, for example, a rectangle, as shown in the drawing. Alternatively, it may be a rounded rectangle, an oval, or any other suitable configuration.

The first adhesive material is placed on the first adhesive portion 6 at the first end of the first surface.

Similarly, the second adhesive material is placed on the second adhesive portion 7 at the second end of the first surface.

Any known pressure sensitive adhesive (self-adhesive block, sticky adhesive) may be used.

On the first surface of the substrate between the first and second adhesive sections are several electrodes. They can be made in a type known as Ag / AgCl electrodes, although other types of electrodes can be used alternatively.

This design allows you to wrap the electrode pad around a selected part of the patient’s body, so that the electrodes located on the first surface come into contact with the skin of this part of the body. In addition, it is possible to press against each other the first and second adhesive sections of the first surface with the formation of a stable structure covering this part of the body, as is additionally shown in figure 2.

The proposed attachment of the electrode pad ensures that the electrodes are not exposed during excessive unwanted movement, which could lead to accidental emissions in the measurements.

In addition, there is no or substantially reduced direct contact between the adhesive and the skin.

In addition, the bonding of two adhesive patches of the patch to each other forms a strong and stable connection even in humid environments, for example inside a hood.

With the exception of the first and second adhesive sections, the area of the first surface may be non-adhesive. Thus, the adhesive means will reduce the ability to affect the skin of a given part of the body in an undesirable or irritating manner.

The substrate may contain foam or other flexible material.

It is possible to coat the electrodes with a layer of electrode paste, which can be prepared in the form of the initial component of a disposable pad. Alternatively, the paste may be applied before using the patch.

In this aspect of the invention, the first electrode 2, the second electrode 3 and the third electrode 4 are respectively a counter electrode, a measuring electrode and a control electrode. For practical use, the first electrode 2 can be connected to the first connecting line (not shown), and the second electrode 3 and the third electrode 4, respectively, to the second and third connecting lines (not shown).

It is possible to change the shapes, sizes and number of electrodes 2, 3, 4 in accordance with the application chosen for them and depending on other circumstances. In this particular case, three electrodes are installed in the electrode pad.

2, a medical electrode pad is schematically shown attached to a body part 8, such as the sole of the foot of a baby. For a detailed discussion of the elements shown in this drawing, refer to the description of figure 1, where the same elements are marked with the same digital symbols.

Part 8 of the body may be part of the body of an infant, including a premature or newborn. However, it is possible to use the proposed patch in conjunction with any body parts of any individual person or any individual animal in situations in which it is necessary or desirable to attach it to the skin.

Part 8 of the body may be the plantar side of the foot or heel, palm of the hand or any suitable part of the body.

As will be shown below, the electrode pad is configured to wrap it around the body part 8 so that the electrodes 2, 3, 4 located on the first surface come into contact with the skin of the body part 8. After that, the first and second adhesive sections of the first surface are squeezed (or compressed) with each other with the formation of a tight and stable structure, covering part 8 of the body.

The medical electrode pad according to any of the above figures can be used, in particular, in a device designed to measure the conductivity of the skin (for example, the skin of the patient).

With this application, the electrode pad 1 can be applied and attached to a selected area of the skin on a part of the patient’s body as described above with reference to FIG. 2, and measurement of skin conductivity at this area is carried out.

The first electrode 2, the second electrode 3, and the third electrode 4 can be respectively a counter electrode, a measuring electrode, and a control electrode, all of which are mounted on a patch 1 placed on a selected area of the skin and attached to it by the already described fastening structure.

The electrode pad 1 and its external connecting accessories can guarantee a constant application of voltage to the stratum corneum (superficial stratum corneum) under the measuring electrode. The resulting current flowing in a closed circuit between the measuring electrode 3 and the counter electrode 2 can be measured by means of a measuring transducer (not shown) connected between them. Such a converter may comprise a current to voltage converter, made simply in the form of a resistor or in the form of an amplifier, in which the output voltage is proportional to the input current, i.e. an amplifier that converts the current supplied from the measuring electrode 3 into voltage.

It is possible to use the described electrode pad also in a device designed to control the patient’s autonomic nervous system. Such control is not necessarily associated with a diagnosis.

In this embodiment, a similar device is used as already described. In addition, the measuring equipment is connected to a processor configured to monitor the patient’s autonomic nervous system based on measurements of skin conductivity. An example of such data processing, as well as the corresponding means / methods of control is given in document WO 03/094726 (incorporated herein by reference).

Figure 3 schematically shows another variant of the electrode pad shown before it is attached to a part of the patient's body.

As in the embodiment of FIG. 1, in this case, the electrode pad 1 comprises a first conductive electrode 2, a second conductive electrode 3 and a third conductive electrode 4, all of which are listed on a flexible elongated insulator substrate 5. The substrate has a first surface and the second surface opposite to it, which is not visible in FIG. More specifically, the electrodes 2, 3 and 4 are respectively a counter electrode, a measuring electrode and a control electrode. Electrical pairing can be performed in the same manner as in the embodiment described above with reference to FIG. 1.

The substrate 5 has an elongated shape, for example, in the form of a rounded rectangle shown in the drawing. Other configurations listed above are possible.

The first adhesive material is placed on the first adhesive portion 6 at the first end of the first surface. The second adhesive material is placed on the second adhesive portion 7 at the second end of the first surface.

In the embodiment of the electrode pad of FIG. 3, the centers of the counter electrode 2 and the control electrode 4 are located on opposite sides of the line 9, which is parallel to the long side of the substrate and passes through the center of the measuring electrode 3. It should be clear that there is no need to execute line 9 in the form of a real line, and in this description it is used only to set the relative positions of the various electrodes of the electrode pad.

As shown in the drawings, the electrodes 2, 3, 4 can be given a substantially circular shape, although other configurations are possible.

The specified line parallel to the long side of the substrate and passing through the center of the measuring electrode 3 can also intersect the area of each of the electrodes 2 (counter electrode) and 4 (control electrode), as shown in Fig.3.

Alternatively, it does not cross electrodes 2, 4 at all, or only one of them crosses.

In the embodiment of FIG. 3, the areas of the electrodes 2, 3, 4 are strictly the same or essentially the same, although in other embodiments they may differ from one another. For example, in the embodiment of FIG. 1, the measuring electrode 3 is substantially larger than the counter electrode 2 and the reference electrode 4.

In addition, FIG. 3 shows a portion 10 in the form of a strip extending obliquely between the control electrode 4 and the measuring electrode 3, as well as a similar portion 11 in the form of a strip extending obliquely between the measuring electrode 3 and the counter electrode 2. In this aspect of the invention, the electrode paste applied not only to the electrodes 2, 3, 4 themselves, but also to the surrounding areas, in the form of a rhombus or parallelogram, without affecting the diagonally extending strips 10, 11. In addition, in this aspect of the invention, the electrode paste is not applied to the adhesive part ki 6 and 7.

In this aspect of the invention, if the electrode pad is made with pre-applied electrode paste, you can pre-apply this paste on the entire upper surface of the substrate 5 with the exception of adhesive sections 6, 7 and strips 10, 11, which are oblique.

Further, only for illustration, not having a limiting character, additional dimensional parameters and technical characteristics of the electrode pad and its components are given:

the area of the central electrode 3: 100-400 mm ² , preferably 200-300 mm ² , for example about 260 mm ² ;

the area of each of the side electrodes 2, 4: 30-250 mm ² , preferably 70-150 mm ² , for example about 100 mm ²

(alternatively, the central electrode 3 may have the same or approximately the same area as each of the side electrodes);

distance between electrodes: 0.2-3 mm, preferably 0.5-1.2 mm, for example about 0.7 mm

(alternatively, for example, in a patch with portions in the form of obliquely extending strips onto which the electrode paste is not applied, the distance between the electrodes, i.e. the distance between the outer edges of adjacent electrodes, may be 2-8 mm, preferably 4-6 mm, e.g. about 5 mm);

total lining length: 40-120 mm, preferably 60-100 mm, for example about 80 mm;

total lining width: 10-30 mm, preferably 15-25 mm, for example about 20 mm;

lining thickness: 0.5-2 mm, preferably 0.8-1.5 mm, for example about 1.0 mm;

the length of the first adhesive section 6 and the second adhesive section 7 (measured in the longitudinal direction of the elongated lining): 5-20 mm, preferably 8-15 mm, for example about 10 mm;

length of the plot in the form of an oblique strip: 2-6 mm, preferably 3-5 mm, for example about 4 mm

Electrode paste, suitable for application to the electrode pad, only as an example, may have the following composition:

6 g of hydroxyethyl cellulose 700, 0.58 g of NaCl, 0.1 g of methyl parahydroxybenzene, 0.1 g of propyl parahydroxybenzene, 2 g of alcohol 96% and distilled water (add up to 100 g). Alternatively, electrode pastes can also be used with other formulations.

Specialists in this field should be obvious that the dimensional parameters of the lining can be changed in accordance with changing circumstances, such as different sizes of the selected body part.

The concept of the invention is not limited to these embodiments, described by way of example only, and the scope of the invention is determined by the attached patent claims.

Claims (9)

1. A disposable electrode pad for medical use, comprising:
flexible elongated substrate with first and second surfaces,
the first adhesive material deposited on the first adhesive portion at the first end of the first surface,
a second adhesive material deposited on the second adhesive portion at the second end of the first surface, and
several electrodes placed on the first surface of the substrate between the first and second adhesive sections with the possibility of wrapping it around a body part so that the electrodes on the first surface come into contact with the skin of the body part and press the first and second adhesive sections of the first surface to each other with the formation of a stable structure covering the specified part of the body, while
among the electrodes there is a counter electrode, a measuring electrode and a control electrode, and
the centers of the counter electrode and the reference electrode are located on opposite sides of the line parallel to the long side of the substrate and passing through the center of the measuring electrode. 2. The patch according to claim 1, in which the substrate contains foam material. 3. The patch according to claim 1, in which the electrodes are made with a coating layer of electrode paste. 4. The patch according to claim 1, in which the first surface, with the exception of the first and second adhesive sections, does not have adhesive properties. 5. The patch according to claim 1, in which the number of electrodes is equal to three. 6. The patch according to claim 5, in which each electrode of the group consisting of a counter electrode, a measuring electrode and a control electrode has a substantially circular shape. 7. The patch according to claim 6, in which a line parallel to the long side of the substrate and passing through the center of the measuring electrode intersects the counter electrode and the control electrode. 8. The patch according to claim 1, configured to wrap it around a part of the baby’s body, including a premature or newborn baby. 9. An overlay according to any one of claims 1 to 8, made with the possibility of fixing on a part of the body, which is the plantar side of the foot or heel or palm of the hand.

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